Characterization and biodistribution of trans resveratrol-PEG-folic acid-gold nanoparticle conjugates

Purpose: To evaluate the characteristics and biodistribution of trans resveratrol-PEG-folic acid-gold nanoparticle conjugates (rsv-PEG-FA-AuNP). Methods: Gold nanoparticles were produced by citric reduction followed by conjugation of PEG-folic acid and resveratrol. Characterization of rsv-PEG-FA-AuNP conjugates including their particle size, zeta potential, and by Fourier transform infrared spectroscopy (FTIR), and transmission electron microscopy (TEM) was carried out. Biodistribution study of rsv-PEG-FA-AuNP was carried out using female Sprague Dawley rats. Biodistribution data were obtained from high performance liquid chromatography (HPLC) analysis. Results: The mean particle size and zeta potential of rsv-PEG-FA-AuNP were 249.03 ± 10.31 and - 36.33 ± 3.12 mV, respectively. TEM images showed rsv-PEG-FA-AuNP conjugates formed spherical shape. Rsv-PEG-FA-AuNP conjugates found in plasma, kidney (1.90 ± 0.20 μg/g), spleen (2.65 ± 1.18 μg/g), liver (1.74 ± 0.03 μg/g), and lung (1.82 ± 0.12 μg/g), after 90 minutes intravenous administration (i.v.) in female Sprague Dawley rats. No free resveratrol was found in plasma, kidney, or spleen after i.v administration in female dawdle Sprague Dawley rats. Conclusion: Resveratrol-PEG-FA-AuNP conjugates appear to be a potential chemotherapy delivery system for active targeting purposes because of its longer systemic circulation and its accumulation in the kidney.

Preclinical Evaluation of Podoplanin-Targeted Alpha-Radioimmunotherapy with the Novel Antibody NZ-16 for Malignant Mesothelioma

The prognosis of advanced mesothelioma is poor. Podoplanin (PDPN) is highly expressed in most malignant mesothelioma. This study aimed to evaluate the potential alpha-radioimmunotherapy (RIT) with a newly developed anti-PDPN antibody, NZ-16, compared with a previous antibody, NZ-12. Methods: The in vitro properties of radiolabeled antibodies were evaluated by cell binding and competitive inhibition assays using PDPN-expressing H226 mesothelioma cells. The biodistribution of 111In-labeled antibodies was studied in tumor-bearing mice. The absorbed doses were estimated based on biodistribution data. Tumor volumes and body weights of mice treated with 90Y- and 225Ac-labeled NZ-16 were measured for 56 days. Histologic analysis was conducted. Results: The radiolabeled NZ-16 specifically bound to H226 cells with higher affinity than NZ-12. The biodistribution studies showed higher tumor uptake of radiolabeled NZ-16 compared with NZ-12, providing higher absorbed doses to tumors. RIT with 225Ac- and 90Y-labeled NZ-16 had a significantly higher antitumor effect than RIT with 90Y-labeled NZ-12. 225Ac-labeled NZ-16 induced a larger amount of necrotic change and showed a tendency to suppress tumor volumes and prolonged survival than 90Y-labeled NZ-16. There is no obvious adverse effect. Conclusions: Alpha-RIT with the newly developed NZ-16 is a promising therapeutic option for malignant mesothelioma.

Preclinical Evaluation of Podoplanin-Targeted Alpha-Radioimmunotherapy with The Novel Antibody NZ-16 for Malignant Mesothelioma

Purpose This study aimed to evaluate the potential of podoplanin (PDPN)-targeted alpharadiotherapy (RIT) for treating malignant mesothelioma.Methods A newly developed anti-PDPN antibody, NZ-16, and a previous anti-PDPN antibody, NZ-12, were assessed. The in vitro properties of radiolabeled antibodies were evaluated by cell binding and competitive inhibition assays using PDPN-expressing NCI-H226 (H226) mesothelioma cells. The biodistribution of 111 In-labeled antibodies was studied in tumorbearing mice. Tumor volumes and body weights of mice treated with 90 Y- and 225 Ac-labeled NZ-16 were measured for 56 days. The absorbed doses were estimated on the basis of the biodistribution data. Pathologic analysis of tumors and organs was conducted.Results The radiolabeled NZ-16 specifically bound to H226 cells with higher affinity than NZ12. The biodistribution studies showed higher tumor uptake of radiolabeled NZ-16 compared with NZ-12. RIT with 225 Ac-labeled NZ-16 (11.1 and 18.5 kBq) had a significantly higher antitumor effect than RIT with 90 Y-labeled NZ-16 (3.7 MBq; P < 0.01). 225 Ac-labeled NZ-16 induced more necrosis compared with 90 Y-labeled NZ-16, but the Ki-67 index and apoptosis rate were similar. The estimated absorbed doses were expected to be tolerable in mice. Temporary body weight loss occurred, but recovered within several days. No visible damage to major organs was detected.Conclusion The novel anti-PDPN antibody NZ-16 was a more effective RIT agent than NZ12. Radiolabeled NZ-16, especially 225 Ac-labeled NZ-16, markedly suppressed tumor growth and prolonged survival without inducing severe adverse effects. RIT with radiolabeled NZ-16 is a promising therapeutic option for malignant mesothelioma.

Human Absorbed Dose Evaluation of [177Lu]Lu-IBA as a Bone Palliative Candidate

The role of lutetium-177 among bone-seeking radionuclides in targeted therapy is noteworthy. The clinical pharmacokinetics of ibandronate (IBA) indicates that this bisphonate has powerful bone mineral affinity. The aim of this study was to evaluate of [177Lu]Lu-IBA efficacy as a new compound.The [177Lu]Lu-IBA was prepared by radiolabeling of IBA ligand to 177LuCl3 that was obtained by thermal neutron irradiation of enriched Lu2O3 sample. Produced [177Lu]Lu-IBA with high radiochemical purity was administered intravenously to mice. Biodistribution data were collected at 1, 4, 24, 48 h and 7 d post injections. With calculating accumulated activities in each organ and extrapolating mouse’s organs to human’s organs by the RADAR method and using OLINDA/EXM software the injected dose in various human organs was achieved.[177Lu]Lu-IBA was produced with radiochemical purity nearly 96 %. Its biodistribution data showed the high uptake and durability in the skeletal tissues without significant uptake in other major organs.The results showed that [177Lu]Lu-IBA has considerably good properties as a bone-seeking radiopharmaceutical and therefore can be a candidate for bone pain palliative therapy in skeletal metastases; however, further biological studies are still needed.

Intraoperative visualization of nerves using a myelin protein-zero specific fluorescent tracer

Background Surgically induced nerve damage is a common but debilitating side effect in oncological surgery. With the aim to use fluorescence guidance to enable nerve-sparing interventions in future surgery, a fluorescent tracer was developed that specifically targets myelin protein zero (P0). Results Truncated homotypic P0 protein-based peptide sequences were C-terminally functionalized with the far-red cyanine dye Cy5. The lead compound Cy5-P0101–125 was selected after initial solubility, (photo)physical and in vitro evaluation (including P0-blocking experiments). Cy5-P0101–125 (KD = 105 ± 17 nM) allowed in vitro and ex vivo P0-related staining. Furthermore, Cy5-P0101–125 enabled in vivo fluorescence imaging of the Sciatic nerve in mice after local intravenous (i.v.) administration and showed compatibility with a clinical fluorescence laparoscope during evaluation in a porcine model undergoing robot-assisted surgery. Biodistribution data revealed that i.v. administered [111In]In-DTPA-P0101–125 does not enter the central nervous system (CNS). Conclusion P0101–125 has proven to be a potent nerve-specific agent that is able to target P0/myelin under in vitro, ex vivo, and in vivo conditions without posing a threat for CNS-related toxicity.

Albutate-1, a Novel Long-Circulating Radiotracer Targeting the Somatostatin Receptor Subtype 2

Currently, radiolabeled DOTA-[Tyr3]-octreotate (DOTA-TATE) is most commonly used in the clinic to image and treat neuroendocrine tumors. To further improve tumor uptake, and thus treatment, the amount of radiotracer that can accumulate in the tumor might be increased by prolonging the blood circulation time of the radiotracer. To achieve this, we designed Albutate-1, with both DOTA and an albumin-binding domain coupled to TATE via a suitable linker. The aim of this study was to determine the characteristics of the novel radiotracer Albutate-1. A competition binding assay was performed using [111In]In-DOTA-TATE on fresh-frozen SSTR2+ tumor sections. In vitro cell-uptake and internalization of [111In]In-Albutate-1 and [111In]In-DOTA-TATE were determined. The stability of [177Lu]Lu-Albutate-1 was tested. A biodistribution study was performed to provide tumor and organ uptake of [177Lu]Lu-Albutate-1. The biodistribution data was used to determine time-activity curves and the radiation dose for each organ and the tumor. The in vitro IC50 value of Albutate-1 was 1.2 nM. A higher amount of the tracer was found in the intracellular fraction than in the membrane fraction ([111In]In-Albutate-1 14.0 vs 1.9% of the added amount; [111In]In-DOTA-TATE 11.0 vs 1.5% of the added amount). After radiolabeling [111In] In-Albutate-1 was stable up to 3 days (93.1-88.9%) in labeling solution and very stable in mouse serum (90-94%) for at least 24 h. In vivo, [177Lu]Lu-Albutate-1 was cleared slowly from the circulation (1 h p.i. 58%ID/g, 168h p.i. 2%ID/g). The addition of an albumin-binding domain to DOTA-TATE extended the blood circulation to T1/2= 27.5h. The tumor absorbed dose was raised to 1455 mGy/MBq. Bone marrow, the dose-limiting organ in the mouse spine, unfortunately, received 765 mGy/MBq. All other organs also received a high radiation dose, reducing the therapeutic index.

The Use of a Non-Conventional Long-Lived Gallium Radioisotope 66Ga Improves Imaging Contrast of EGFR Expression in Malignant Tumours Using DFO-ZEGFR:2377 Affibody Molecule

Epidermal growth factor receptor (EGFR) is overexpressed in many malignancies. EGFR-targeted therapy extends survival of patients with disseminated cancers. Radionuclide molecular imaging of EGFR expression would make EGFR-directed treatment more personalized and therefore more efficient. A previous study demonstrated that affibody molecule [68Ga]Ga-DFO-ZEGFR:2377 permits specific positron-emission tomography (PET) imaging of EGFR expression in xenografts at 3 h after injection. We anticipated that imaging at 24 h after injection would provide higher contrast, but this is prevented by the short half-life of 68Ga (67.6 min). Here, we therefore tested the hypothesis that the use of the non-conventional long-lived positron emitter 66Ga (T1/2 = 9.49 h, β+ = 56.5%) would permit imaging with higher contrast. 66Ga was produced by the 66Zn(p,n)66Ga nuclear reaction and DFO-ZEGFR:2377 was efficiently labelled with 66Ga with preserved binding specificity in vitro and in vivo. At 24 h after injection, [66Ga]Ga-DFO-ZEGFR:2377 provided 3.9-fold higher tumor-to-blood ratio and 2.3-fold higher tumor-to-liver ratio than [68Ga]Ga-DFO-ZEGFR:2377 at 3 h after injection. At the same time point, [66Ga]Ga-DFO-ZEGFR:2377 provided 1.8-fold higher tumor-to-blood ratio, 3-fold higher tumor-to-liver ratio, 1.9-fold higher tumor-to-muscle ratio and 2.3-fold higher tumor-to-bone ratio than [89Zr]Zr-DFO-ZEGFR:2377. Biodistribution data were confirmed by whole body PET combined with magnetic resonance imaging (PET/MRI). The use of the positron emitter 66Ga for labelling of DFO-ZEGFR:2377 permits PET imaging of EGFR expression at 24 h after injection and improves imaging contrast.

421 Initial results of a phase 1 trial of RP2, a first in class, enhanced potency, anti-CTLA-4 antibody expressing, oncolytic HSV as single agent and combined with nivolumab in patients with solid tumors

BackgroundRP2 is an enhanced potency oncolytic HSV-1 expressing granulocyte-macrophage colony-stimulating factor (GM-CSF), a fusogenic protein (GALV-GP R-), and an anti-cytotoxic T lymphocyte antigen 4 (CTLA-4) antibody-like molecule which is being tested in an open-label, multicenter, phase 1 study alone and combined with PD-1 blockade (NCT04336241).MethodsThe objectives were to assess initial safety and efficacy and determine the recommended phase 2 dose (RP2D) of RP2 alone and combined with nivolumab. Patients were to be treated using a 3+3 dose escalation at two dose levels of up to 10 mL of RP2 Q2W up to 5 times (dose level 1: 105 PFU/mL then 4 doses of 106 PFU/mL; dose level 2: 106 PFU/mL then 4 doses of 107 PFU/mL). Following determination of the RP2D, additional HSV-1 seronegative patients were to be enrolled such that ≥3 had been dosed with RP2 at the RP2D, and a combination cohort of up to 30 patients dosed up to 8 times with RP2 at the RP2D combined with nivolumab (240 mg Q2W for 4 months from the second RP2 dose, then 480 mg Q4W for 20 months) opened. Lesions were injected directly or under imaging guidance used for visceral lesions. Tumor biopsies were obtained for biomarker analysis. Viral shedding and anti-HSV antibody titers were also monitored.ResultsSix HSV seropositive patients were enrolled in the dose-escalation phase with primarily Grade 1–2 adverse events, including febrile and other constitutional symptoms, local inflammation, and erythema observed. There were no DLTs requiring dose level expansion. The RP2D was selected as up to 10 mL of 106 PFU/mL followed Q2W by multiple doses of 107 PFU/mL. Of the six patients treated with single agent RP2, three (50%) have ongoing partial responses. Objective responses (including in uninjected tumors) were observed in patients with uveal melanoma (prior ipilumumab/nivolumab; extensive liver metastases), mucoepidermoid carcinoma (prior carboplatin/paclitaxel, bicalutamide, ceralasertib), and esophageal cancer (prior durvalumab, M6620, capecitabine, oxaliplatin, cisplatin, chemoradiation; liver and abdominal node metastases). Enrollment is underway in HSV seronegative patients and in combination with nivolumab. Updated data including biomarker and biodistribution data will be presented.ConclusionsThe Phase 1 clinical data supports the safety and efficacy of single agent RP2, including demonstration of uninjected tumor response in patients with difficult to treat advanced cancers. This data supports the hypothesis that anti-CTLA-4 delivered intra-tumorally through oncolytic virus replication, with accompanying antigen release and presentation, can provide potent anti-tumor effects.

ESTIMATION OF HUMAN DOSE OF 188/186RE-HEDP COCKTAIL BASED ON OLINDA/EXM AND DISTRIBUTION DATA IN RATS

188Re and 186Re are two applicable rhenium medical radioisotopes with complementary features that make them beneficial for different sizes of tumours. The aim of this study is to investigate 188/186Re-HEDP efficacy as a cocktail by calculating absorbed radiation dose in human organs based on biodistribution data obtained by injecting it to normal rats. Three rats were sacrificed at different time intervals and the percentage of injected dose per gram of each organ was measured by direct counting from rat data. By calculating accumulated activities in each organ and extrapolating rat data to human data by the radiation dose assessment resource method and by using OLINDA/EXM software, the injected dose in various human organs was obtained. The calculated absorbed dose showed that the 188/186Re-HEDP has noticeable properties that can be more helpful in comparison with using each of the rhenium radioisotopes separately.